Burner cup

ABSTRACT

A device has a canister with a bulk wick occupying at least most of the canister, and a lid affixed to the canister and in contact with the bulk wick. The lid defines an opening exposing a portion of the bulk wick for lighting.

CROSS-REFERENCE TO RELATED CASES

This application is a continuation of U.S. patent application Ser. No.14/462,909 entitled “BURNER CUP” filed Aug. 19, 2014, which claimspriority of U.S. Provisional Patent Application No. 61/867,415, entitled“BURNER CUP,” filed Aug. 19, 2013, and U.S. Provisional PatentApplication No. 61/887,120, entitled, “ILLUMINATION SOURCE,” filed Oct.4, 2013, and U.S. Provisional Patent Application No. 62/018,344,entitled “SOLID LID BURNER CUP,” filed Jun. 27, 2014, the contents ofeach of which are hereby incorporated by reference.

FIELD OF THE INVENTION

This disclosure relates to the field of fuel burning lamps and burnersin general and, more specifically, to products capable of providingenhanced flame effects utilizing low flammability fuel.

BACKGROUND OF THE INVENTION

Candles, lamps, and lanterns have been used for lighting since ancienttimes. Although modern households rely on electric lighting, the use ofthese combustion-based devices has never completely subsided. Combustinglight implements are used even in modern times as a backup or emergencylighting source, for ambiance, to disperse scents or repellants, fordecoration, and for other purposes.

Especially when used outdoors, regular fiber-wicked candles may sufferfrom inadvertent extinguishment owing to the low quantity of fuel theyburn per wick. Larger wicks can produce more robust flames but these canbe difficult to control satisfactorily and are often sooty or smoky inappearance. Similar problems may be faced with a liquid fueled apparatussince these are also based on traditional woven wicks. Moreover, indealing with liquid fueled devices the fuel must usually be stored in anattached reservoir leading to issues of spillage and proper ventilation.

What is needed is a candle holder to address the above limitations.

SUMMARY OF THE INVENTION

The invention of the present disclosure, in one aspect thereof comprisesa device having a canister, a bulk wick occupying at least most of thecanister, and a lid affixed to the canister and in contact with the bulkwick. The lid defines an opening exposing a portion of the bulk wick forlighting.

The lid may be a mesh lid with a central ring exposing the bulk wick.The lid may be concave into the canister. In some embodiments the lid issolid except for the opening exposing a portion of the bulk wick.

The bulk wick may define a cavity below the opening in the lid. Thecavity may extend to an interior bottom of the canister. In otherembodiments, the cavity extends inside the canister to an insulative padat the bottom of the canister. The cavity may have as a cylindrical wallextending downward through the bulk wick and a lip protruding inwardlyfrom the wall.

The device may further include a woven wick extending from inside thebulk wick through the opening in the lid. In other embodiments, the bulkwick is formed into a plurality of fins extending inwardly from wall ofthe canister.

The invention of the present disclosure, in another aspect thereof,comprises, a canister having an exterior wall surrounding a canisterfloor to define a canister interior, a lid for affixing to the top ofthe canister, and a bulk wick in the canister interior, the bulk wickformed to contact the lid when the lid is affixed to the top of thecanister. The lid provides an opening ring defining at least a firstburn area for the bulk wick.

In some embodiments the bulk wick contacts the lid only at the openingring. The bulk wick may define a cavity under the opening ring. Thecavity may have a protruding lip providing for ease of lighting. In someembodiments the bulk wick fills the majority of the interior of thecanister. The bulk wick may define a fins projecting inwardly from thedirection of the exterior wall. An insulative pad may interpose the bulkwick and the canister. Some embodiments comprise a container holding thecanister in a supported location.

The invention of the present disclosure, in another aspect thereofcomprises a device having a bulk wick of sufficient volume to contain aquantity of liquid fuel for burning, a canister that contains the wick,and a lid that fits onto the canister and provides at least one openingappropriately sized to allow air to enter the canister for mixing withfuel in a combustion process and allowing the combustion products toescape. In some embodiments the bulk wick comprises polycrystallinecotton formed to contact an interior of the canister and the wick whileproviding a cavity as a burn area.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a light source holder, container and capaccording to aspects of the present disclosure.

FIG. 2 is a perspective view of the light source holder of FIG. 1 withthe cap in place and a light source supported by a platform.

FIG. 3 is a perspective view of the light source holder of FIG. 1 withexemplary decorations.

FIG. 4A is a perspective view of one embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 4B is a perspective view of one embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 4C is a perspective view of one embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 5 is a side cutaway view of one embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 6 is a side cutaway view of another embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 7 is a top down view of another embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 8 is a side cutaway view of another embodiment of a burner cupaccording to aspects of the present disclosure.

FIG. 9 is an exploded perspective view of another embodiment of a burnercup according to aspects of the present disclosure.

FIG. 10 is a side cutaway view of the burner cup of FIG. 9.

FIG. 11 is an elevation view of the container of FIG. 1 enclosing aburner cup and mounted on a rod.

FIG. 12 is a perspective view of the container of FIG. 1 enclosing aburner cup and mounted on a base suitable for locating on a table top.

Like numbers refer to like parts throughout.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to FIG. 1, a perspective view of a light holder accordingto aspects of the present disclosure is shown. For purposes of thepresent disclosure, the term light holder is understood to mean a devicethat may contain a fuel burning device or other light producing devicetherein. For example, the light holder 100 may contain various burnercups as described below.

The light holder 100 comprises a container 102. In the presentembodiment, the container 102 comprises an outer wall 104 and an innerwall 106. A space 107 is defined between the outer wall 104 and theinner wall 106. In some embodiments, this space 107 will serve as aninsulating barrier and, in other embodiments, may be used for decorativepurposes, as will be described further below. In the present embodiment,the outer wall 104 and the inner wall 106 connect to the base 108.

In some embodiments, the outer and inner wall 104, 106, will be formedfrom separate pieces and attached to the base 108. In other embodiments,the outer wall 104 and inner wall 106 may be formed integrally and thenattached to the base 108. In some embodiments, the walls 104, 106 willbe made from glass. In other embodiments, the walls 104, 106 maycomprise some other heat resistant and suitably translucent ortransparent material. In some embodiments, a substantially transparentwall design will be utilized to allow for lighting from a candle toshine through the walls and for allowing the candle to backlightdecorative items, as will be described more fully below.

The base 108 may provide an opening 110 such that the bottom of thecontainer 102 is open. The base may be made from a metal or plastic orother resilient or durable material. In one embodiment, the walls 104,106 will be glued to the base 108.

The light holder 100 in the present embodiment also comprises a lid 120.The lid 120 has a top 122 which can be seen as being generally toroidalin shape. In the present embodiment, the top 122 is generally of an opendisk shape with a width covering the distance between the outer wall 104and the inner wall 106. A lip 124 may be formed around the periphery ofthe top 122 to ensure that the lip 120 is centered on the container 102when placed thereon. A set of hangers 126 extends generally downwardlyfrom the top 122 and suspends a candle platform 128. The candle platform128 may also have a lip 130 around a periphery thereof to secure acandle. All of the components of the lid 120 may be metal or suitableheat resistant plastic. The hangers 126 may be a stiff wire that iscapable of suspending the base 128 in a level and secure relationshipwith regard to the top 122.

Referring now to FIG. 2, a perspective view of the light holder of FIG.1 with the cap in place with a candle is shown. Here, the lid 120 isseen in place on the container 102. It can be seen that when the lid 120is placed upon the container 102, the platform 128 will be atapproximately the same level as the base 108 of the container 102. Acandle 202 is shown resting on the platform 128. It can be seen that toreplace or remove the candle 202, the user need only lift the lid 120.This will allow easy access to the candle platform 128. In this manner,if a candle becomes stuck or melted to the platform 128, it may beeasily removed for cleaning. It will also be appreciated that, becausethe walls 104, 106 may be substantially transparent or translucent, anylight from the candle 202 will be substantially unimpeded by the candleholder 100. It can be seen that the walls 104, 106 in conjunction withthe space 107 therebetween will serve to insulate the user from any heatgiven off by the candle 202. The light holder 100, as well as otherlight or candled holders, may be suitable for use with the burner cupsof the present disclosure.

Referring now to FIG. 3, a perspective view of the light holder of FIG.1 with exemplary decorations is shown. In the present embodiment, aphotograph 302 has been placed within the space 107 between the walls104, 106. This may be done for decorative or backlighting purposes. Theembodiment of FIG. 3 also provides a shadow-type decoration 304 that maybe backlit by the candle 202, thereby casting pleasing or decorativeshadows. Although only two decorations are shown in FIG. 3, it isunderstood that number and type of decorations is not meant to belimited by the present disclosure. It will also be appreciated that thedesign of the candle holder 100 with the lid 120 securely encapsulatingthe decorations 302, 304 will keep the decorations 302, 304 in relativesafety.

Although generally cylindrical or circular walls 104, 106 are used inholder 100, as shown in FIGS. 1-3, other shapes are possible. Forexample, holder 100 could have an oval cross section. In this way holder100 would present a broader side when viewed from certain angles.Similarly, square or rectangular cross sections could be employed. Inother embodiments, other more complex cross sections could be molded andformed, such star-shaped, or other shapes. The corresponding lids andplatforms of these embodiments may be formed to match the shape of thewalls such that the holder will operate in substantially the same manneras described with respect to FIGS. 1-3.

Referring now to FIG. 4A, a perspective view of one embodiment of aburner cup 402 is shown. In one embodiment, the fuel is light and/orwhole-cut methyl ester. Other fuels may be utilized and additives may beprovided with the fuels to enhance color or flame effects or to provideadditional utility such as scents or insect repellency.

Burner cup 402 includes casing 502. The casing 502 may be stainlesssteel, aluminum, or another suitably heat resistant and resilientmaterial. In one embodiment, the casing 502 is formed from a singlepiece of steel or other material. The casing 502 may be impermeable tothe fuel utilized such that the fuel will not escape even if stored foran extended period of time. A vessel, such as container 102 (e.g., FIGS.1-3 infra), may be provided to surround or to contain one or more burnercups. As discussed above, container 102 may be decorative. Container 102may be made of a number of materials including metals, resins, ceramics,and wood, for example. Since the casing 502 is impermeable to fuel, thecontainer 102 need not necessarily also be impermeable.

In the present embodiment, the casing 502 is filled mostly with a wick504. The wick 504 may be made of polycrystalline cotton (PCC), or maycomprise other materials. In one embodiment, wick 504 is made from about60% to about 90% Al2O3 and from about 10% to about 30% SiO2. The wick504 may be formed by wet vacuum processing or molding. The wick 504 mayalso be cut after forming to achieve desired shape and burncharacteristics. An wick that may be shaped or configured into a varietyof shapes (e.g., to fit a specific container) is referred to as a bulkwick. A bulk wick may also refer to a wick with amorphouscharacteristics such that it may be molded, compressed, or cut to fit aparticular container.

The wick 504 may be saturated or at least partially imbued or infusedwith a quantity of fuel sufficient to support a flame on the exposedsurfaces of the wick 504, e.g., proximate a top of the casing 502. Inone embodiment, a screen 506 covers wick 504. The screen 506 may bestainless steel or another heat resistant material. The screen 506serves to retain or aid in shaping wick 504 within casing 502. Thescreen 506 may have a generally concave or convex shape, or may havemore complicated geometries.

The wick 504 may be configured in various shapes to control fuelconsumption and burn time, to improve flame consistency or to createvarious flame effects. Such flame effects include, but are not limitedto, taller or wider flames, large or smaller flames, and flames thatoccupy a certain area of the casing 502. The screen 506 provides a solidsurface to aid in retaining the wick 504 in a chosen shape. The screen506 also serves to promote and/or control air flow around the wick 504.

In some embodiments, the screen 506 provides an opening ring 507 a thatprovides additional flame modification options. For example, burner cup402 of FIG. 4A illustrates a standard braided fiberglass wick 505surrounded by bulk wick 504, and extending through a relatively smallring 507 a. A high degree of contact may be maintained between the wick504 and the screen 506 to substantially fill the casing 502 and tosecure the fiberglass wick 505 in its location.

Referring now to FIG. 4B, a perspective view of another embodiment of aburner cup 404 is shown. The burner cup 404 shares some characteristicswith the cup 402 discussed above. For example a casing 502 is providedalong with a screen 506. Together these components retain a bulk wick504 therein. Again, the screen 506 may have a dished or concave shape,or could have other shapes. The burner cup 404 has a ring 507 b that islarger than the ring 507 a of previously discussed cup 402. In thepresent embodiment, the lager ring 507 b provides for a larger surfacearea of wick 504 to be completely exposed.

As discussed, in order to alter or control burn characteristics, thescreen 506 may act to retain the wick 504 in specific shapes. Here amounded wick area is created in the ring 507 b. The wick 504 stilllargely fills the casing 502 but a gap 400 is created between the screen506 and the wick 504 outside of the ring 507 b.

Referring now to FIG. 4C, a perspective view of another embodiment of aburner cup 406 is shown. The burner cup 406 shares some characteristicswith the cups 402, 404 discussed above. For example a casing 502 isprovided along with a screen 506. Here, a large ring 507 b surrounds adepression, opening, hole, or cavity 508 defined in the wick 504. Thewick 504 otherwise mostly fills the casing 502 up to the level of thescreen 506. This configuration allows air to flow easily to a flameemanating from the opening 508 when the cup 406 is operational.Combustion of fuel and/or mixing of fuel with air may take place withinthe hollowed out portion or cavity 508, which improves fuel utilizationand flame consistency

Referring now to FIG. 5, a side cutaway view of one embodiment of aburner cup, i.e., burner cup 500, is shown. Burner cup 500 is similar tothe burner cups 402, 404, 406 discussed above. The burner cup 500 alsoprovides an insulative pad 510 inside casing 502 near the bottom. Thepad 510 insulates the sides and bottom of casing 502, and whatever isbelow, from excessive heat. The pad 510 may also absorb excess fuel fromwick 504, which prevents excess fuel from spilling from the casing 502.

In some embodiments, the pad 510 may also increase the burn time ofburner cup 500 as excess fuel may be wicked from the pad 510 into thewick 504 and burned. In one embodiment, there is a single pad 510 in ashort cylindrical shape that matches the bottom of casing 502. However,more pads may be provided and/or the pads may have different shapes. Forexample, a pad may be configured to line all, or substantially all, ofthe interior wall of the casing 502.

The shape and size of any portion of the wick 504 inside casing 502 canvary from that shown. FIG. 5 illustrates a hollowed out portion orcavity 508 that extends all the way to pad 510 such that the wick 504defines a chimney or tubular shape. However, in other embodiments, thehollowed out portion or cavity 508 may stop short of the pad 510. Inother embodiments, the cavity 508 may extend all the way to the bottomof the casing 502, e.g., cavity 508 may extend through pad 510 or no pad510 is present.

Referring now to FIG. 6, a side cutaway view of another embodiment of aburner cup 600 is shown. The burner cup 600 is similar in constructionin some ways to those previously described. For example, the burner cup600 includes a casing 502, which may be cup shaped. A screen 506 maypartially cover an upper opening of the casing 502. An opening or ring507 may be provided in the screen 506 proximate the center of the screen506. A wick 504 may be provided with a hollowed out portion or cavity508. As with previous embodiments, the wick 504 may be a bulk wick.

In the present embodiment, a hollowed out portion or cavity 508 does notextend completely to the bottom of the casing 502. A lip or ring 602circumscribes an interior radius of the hollow portion or cavity 508.The lip or ring 602 may be a shelf-like protrusion extending laterallyfrom the wall of the wick 504 toward the center of the opening 508. Thedepth of ring 602 in the opening or cavity 508 may be selected toprovide a convenient location for lighting wick 504. The lip 602 mayserve to demarcate to a user a depth within the opening or cavity 508providing an ideal depth for ensuring a reliable light of the burner cup600. In one embodiment, the lip 602 is about 0.5 to 1 inch below thesurrounding wick material 504. The location of the lip 602 may betailored to the specific fuel and wick combination being employed.

Referring now to FIG. 7, a top down view of another embodiment of aburner cup 700 is shown. Burner cup 700 shares some similarities withthose previously discussed. The burner cup 700 has a cup shaped casing502 surrounding a PCC based bulk wick 504 defining an opening or cavity508. A screen 506 is provided over the top of the casing 502. Forpurposes of illustration, the screen 506 is shown removed in FIG. 7.

In the embodiment of FIG. 7, the wick 504 provides a series of radiallyarranged vertical fins 702 protruding toward the center of the openingor cavity 508. The fins 702 may comprise the same material as wick 504.Vertically, fins 702 may extend the entire depth of the opening orcavity 508. The fins 702 operate to promote air flow and ease oflighting for the user. The fins 702 provide additional opportunity forvaporization and burning of the fuel contained with wick 504 and/orcasing 502. The screen 506 may be placed atop the casing 502 such thatone or more of the fins 702 are accessible for lighting via the openingor cavity 508. In some embodiments, the ring 507 and/or fins 702 may besized such that fins 702 protrude into the area directly beneath ring507.

Referring now to FIG. 8, a side cutaway view of another embodiment of aburner cup 800 according to aspects of the present disclosure is shown.Burner cup 800 is similar to those previously described. Casing 502 hasa cup-like shape with an open top. Within the casing 502 is a bulk wick504. The wick 504 may retain a quantity of fuel for burning in cup 800.In the present embodiment, a traditional wick 505 (e.g., a braidedfiberglass wick), is centered in an opening or cavity 508 in the Bulkwick 504. During operation, the traditional wick 505 draws fuel frombulk wick 504 for combustion near the top of casing 502. The screen 506defines an opening 507 through which the wick 505 may pass. In someembodiments, the opening 507 serves to locate the upper end of the wick505 in proper orientation.

FIG. 9 is an exploded view of another embodiment of a burner cup 600according to aspects of the present disclosure. The burner cup 600includes a solid cover 602 (in contrast with the screen covers utilizedwith previous embodiments). The cover 602 comprises an upper surface 604and a lower surface 606. Each of the upper and lower surfaces 602, 606may have a specific contour or surface shape, and these may be the sameor different. An inner opening 608 is defined through both the upper andlower surfaces 602, 606 such that the opening 608 is all the way throughthe cover 602. In the present embodiment, a ridge 610 surrounds theopening 608 to increase structural rigidity. The ridge 610 may also beuseful for locating a snuffer (not shown) when used to extinguish theburner cup 600. In some embodiments, the cover 602 is formed from asingle sheet of stamped or pressed metal alloy such that the uppersurface 604 mirrors the lower surface 606. The opening 608 may be framedby a lip or roll 611.

The burner cup 600 provides a wick 620, which may be a bulk wick. Thewick 620 provides a cylindrical body 621 with an opening 622 that goesat least partway through the body 621. An upper surface 624 of the body621 may have a contour that at least partially corresponds to the lowersurface 606 of the cover 602.

The wick 620 is placed into the casing 102 and the cover 602 is placedatop the casing during assembly of the burner cup 600. In someembodiments, the cover 602 is permanently affixed to the casing 102; asthe wick 620 may last the life of the burner cup 600, and the opening608 allows for replenishment of the fuel in the wick 620 withoutdisassembling the burner cup 600.

Referring now to FIG. 10, a side cutaway view of the burner cup 600 isshown. Here the burner cup 600 is fully assembled with the wick 620placed within the casing 102 and the cover 602 affixed to the casing 102holding the wick 620 in place. The cover 602 may be rolled or foldedabout the top rim of the casing 102 or may be affixed in some othermanner (e.g., spot welding or adhesives). It can be seen that the shapeof the outside of the wick body 621 generally comports with the shape ofthe inside of the casing 102. In some embodiments, the wick body 621 isdesigned to fill the casing 102 up to the level of the cover 602 (exceptwhere the hole or opening 622 is defined in the wick 620). In thepresent embodiment, the opening 622 does not extend all the way throughthe body 621 to the inside of the casing 102 but has a layer of materialcovering the bottom of the inside of the casing 102. In someembodiments, good performance is obtained in terms of wicking and burncharacteristics where the bottom layer is between 0.25 inches and 0.5inches thick.

In operation, the wick 620 is imbued with a quantity of fuel and ignitedat the opening 608. Fuel at the surface of the opening 622 burns with aflame produced in the opening 620 and/or opening 608. In order topromote ease of lighting and/or ensure adequate fuel supply, a portionof the upper surface 624 of the body 621 forms a shelf 612 around theopening 622. The shelf 612 may be at the same or a different height thanthe remainder of the upper surface 624. In the current embodiment, theshelf 612 is slightly depressed relative to the remainder of the suppersurface 624 and is bounded by a rim 611 circumscribing the opening 608in the cover 602. The rim 611 may comprise a part of the lower surface604 of the cover 602 that contacts the upper surface 624 of the wickbody 621 to secure the wick 620 in place in the casing 102.

In one embodiment, the casing 102 of the burner cup 600 is about 2.8inches tall. The cover 602 has a diameter of about 3.4 inches while theopening 608 is about 2.0 inches in diameter. The opening 622 in the wickbody 621 is about 1.5 inches in diameter, which means the shelf 612 isabout 0.25 inches across where exposed around the opening 622.

The diameter of the opening 608 in the cover 602 may be from about 50%to about 60% of the diameter of the ridge 610. The height of the casing102 may be about the same dimension as the overall width. Theseparameters promote desirable burn and fuel consumption characteristics.The configuration 600 with the solid lid 602 provides more consistentflame throughout the entire burn cycle without a significant decrease infuel consumption.

The opening 608 is round in the present embodiment, but other shapes arepossible. So similar shapes other than cylindrical may be used for thecasing 102. However, the rounded or cylindrical embodiments shownpromote desirable fuel consumption and flame characteristics.

Referring now to FIG. 11, shown is container 102 mounted on top of torchpole or rod 900. A light source, such as one of the burner cupsdescribed above, is mounted within container 102. The elevated containermore efficiently illuminates the surrounding area. Rod 900 may be firmlyaffixed within ground surface 906.

FIG. 12 shows container 102 mounted on base 1000. A light source, suchas a burner cup described above is mounted within container 102. Thecontainer 102 and base 1000 combination is suitable for locating on atable top or other surface for providing a convenient source ofillumination, scent dispersal, insect repellence, etc. It will beappreciated that the container 102, the rod 900, and/or the base 1000provide a supported and safe location to utilize the various burner cupsof the present disclosure.

Thus, the present invention is well adapted to carry out the objectivesand attain the ends and advantages mentioned above as well as thoseinherent therein. While presently preferred embodiments have beendescribed for purposes of this disclosure, numerous changes andmodifications will be apparent to those of ordinary skill in the art.Such changes and modifications are encompassed within the spirit of thisinvention as defined by the claims.

1. A device comprising: a canister; a non-woven, amorphous bulk wickoccupying at least most of the canister; and a lid affixed to thecanister and in contact with the bulk wick; wherein the lid defines anopening exposing a portion of the bulk wick for lighting.
 2. The deviceof claim 1, wherein the lid is a mesh lid with a central open ringexposing the bulk wick.
 3. The device of claim 2, wherein the lid isconcave into the canister.
 4. The device of claim 1, wherein the lid issolid except for the opening exposing a portion of the bulk wick.
 5. Thedevice of claim 1 wherein the bulk wick defines a cavity below theopening in the lid.
 6. The device of claim 5, wherein the cavity extendsto an interior bottom of the canister.
 7. The device of claim 5, whereinthe cavity extends inside the canister to an insulative pad at thebottom of the canister.
 8. The device of claim 5, wherein the cavity hasa cylindrical wall extending downward through the bulk wick and a lipprotruding inwardly from the wall.
 9. The device of claim 1, furthercomprising a woven wick extending from inside the bulk wick through theopening in the lid.
 10. The device of claim 1, wherein the bulk wick isformed into a plurality of fins extending inwardly from wall of thecanister.
 11. A device comprising: a canister having an exterior wallsurrounding a canister floor to define a canister interior; a lid thataffixes to the top of the canister; and a bulk wick in the canisterinterior, the bulk wick formed to contact the lid and having an outershape that comports with the canister interior when the lid is affixedto the top of the canister; wherein the lid provides an opening ringdefining at least a first burn area for the bulk wick.
 12. The device ofclaim 11, wherein the bulk wick contacts the lid only at the openingring.
 13. The device of claim 11, wherein the bulk wick defines a cavityunder the opening ring.
 14. The device of claim 13, wherein the cavityhas a protruding lip providing for ease of lighting.
 15. The device ofclaim 11, wherein the bulk wick fills a majority of the interior of thecanister.
 16. The device of claim 11, wherein the bulk wick defines aplurality of fins projecting inwardly from a direction of an exteriorwall of the canister.
 17. The device of claim 11, further comprising aninsulative pad interposing the bulk wick and the canister.
 18. Thedevice of claim 11, further comprising a container holding the canisterin a supported location.
 19. A device comprising: a bulk wick ofsufficient volume to contain a quantity of liquid fuel for burning; acanister that contains the wick; and a lid that fits onto the canisterand provides at least one opening appropriately sized to allow air toenter the canister for mixing with fuel in a combustion process andallowing the combustion products to escape; wherein the wick defines acavity below the at least one opening of the lid wherein the airentering the canister mixes with the fuel for the combustion process.20. The device of claim 19, wherein the bulk wick comprisespolycrystalline cotton formed to contact an interior of the canisterseparate from and below the at least one opening.